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Electron spin dynamics and spin–lattice relaxation of trityl radicals in frozen solutions

机译：冷冻溶液中三苯甲基自由基的电子自旋动力学和自旋晶格弛豫

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Electron spin–lattice relaxation of two trityl radicals, d24-OX063 and Finland trityl, were studied under conditions relevant to their use in dissolution dynamic nuclear polarization (DNP). The dependence of relaxation kinetics on temperature up to 100 K and on concentration up to 60 mM was obtained at X- and W-bands (0.35 and 3.5 Tesla, respectively). The relaxation is quite similar at both bands and for both trityl radicals. At concentrations typical for DNP, relaxation is mediated by excitation transfer and spin-diffusion to fast-relaxing centers identified as triads of trityl radicals that spontaneously form in the frozen samples. These centers relax by an Orbach–Aminov mechanism and determine the relaxation, saturation and electron spin dynamics during DNP.

机译：研究了两个三苯甲基自由基d24-OX063和芬兰三苯甲基的电子自旋-晶格弛豫，条件与它们在溶解动态核极化（DNP）中的使用有关。在X和W波段（分别为0.35和3.5 Tesla）获得了弛豫动力学对高达100 K的温度和高达60 mM的浓度的依赖性。在两个谱带以及两个三苯甲基自由基的弛豫都非常相似。在DNP的典型浓度下，弛豫是由激发转移和自旋扩散到快速松弛的中心所介导的，快速松弛的中心被确定为在冷冻样品中自发形成的三苯甲基自由基的三联体。这些中心通过Orbach–Aminov机制松弛，并确定DNP期间的松弛，饱和度和电子自旋动力学。

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期刊名称 other
作者
Hanjiao Chen; Alexander G. Maryasov; Olga Yu. Rogozhnikova; Dmitry V. Trukhin; Victor M. Tormyshev; Michael K. Bowman;
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年(卷),期 -1(18),36
年度 -1
页码 24954–24965
总页数 25
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专利

1. Electron spin dynamics and spin-lattice relaxation of trityl radicals in frozen solutions [J] . Chen Hanjiao, Maryasov Alexander G., Rogozhnikova Olga Yu., Physical chemistry chemical physics: PCCP . 2016,第36期

机译：冷冻溶液中三苯甲基自由基的电子自旋动力学和自旋晶格弛豫
2. Resonance-type effects in free radical electron spin-lattice relaxation and electron spin echo dephasing due to a dynamics of a homogeneous-chain oligomeric system [J] . Stanislaw K.Hoffmann, Wojciech Hilczer, Janina Goslar, Physical chemistry chemical physics: PCCP . 2002,第20期

机译：均相链低聚物系统动力学导致自由基电子自旋晶格弛豫和电子自旋回波移相的共振型效应
3. Saturation recovery electron spin-lattice relaxation studies on benzene anion radical and its derivatives: application of Kivelson-Orbach mechanism of electron spin relaxation [J] . Krishnendu Kundu, Ranjan Das Molecular physics . 2014,第11a13期

机译：苯阴离子自由基及其衍生物的饱和恢复电子自旋晶格弛豫研究：Kivelson-Orbach电子自旋弛豫机理的应用
4. Electron Spin Lattice Relaxation of V(IV) Complexes in Glassy Solutions between 15 and 70 K [C] . Alistair J. Fielding, Dong Bin Back, Michael Engler, International Symposium on Chemistry and Biological Chemistry of Vanadium . 2007

机译：玻璃溶液中的v（iv）复合物的电子旋转晶格弛豫在15到70 k之间
5. Electron spin-lattice relaxation in proteins, model heme complexes and ferricyanide solutions at helium temperatures. [D] . Drews, Andrew Robert. 1990

机译：氦气温度下蛋白质，模型血红素复合物和铁氰化物溶液中的电子自旋晶格弛豫。
6. Electron spin-lattice relaxation of nitroxyl radicals in temperature ranges that span glassy solutions to low-viscosity liquids [O] . Hideo Sato, Steven E. Bottle, James P. Blinco, -1

机译：硝态自由基在玻璃溶液到低粘度液体的温度范围内的电子自旋晶格弛豫
7. Electron spin relaxation times and rapid scan EPR imaging of pH-sensitive amino-substituted trityl radicals [O] . Hanan B. Elajaili, Joshua R. Biller, Mark Tseitlin, 2014

机译：电子自旋弛豫时间和快速扫描EPR成像对pH敏感的氨基取代的Trityl基团
8. Proton and exp 13 C Spin-Lattice Relaxation Studies of the Conformation and Dynamical Behavior of Poly(4 Vinyl-Pyridine) in Methanol Solution [R] . Ghesquiere, D., Chachaty, C., Buu, B. 1977

机译：质子和exp 13 C自旋弛豫松弛研究聚（4乙烯基吡啶）在甲醇溶液中的构象和动力学行为

Electron spin dynamics and spin–lattice relaxation of trityl radicals in frozen solutions

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